KR101957131B1 - Cultivation Equipment for Plant - Google Patents

Abstract

A plant cultivation system according to the present invention comprises: a first cultivation room having a cultivation space for accommodating a plant cultivation zone and a first outer wall for enclosing the cultivation space; and a second cultivation room for accommodating the first cultivation room, And a second outer chamber provided on the outer surface of the first outer wall to seal the buffer space. And at least one air conditioning unit provided in the first and second cultivation rooms for controlling the air, wherein the air conditioning unit is provided in the buffer space of the second cultivation room, A first air conditioning unit for controlling the air so that the pressure of the space is in the range of -15 Pa to -2.5 Pa or less, And a second air conditioning unit for controlling the air so that the cultivation space is positive.

Description

Cultivation Equipment for Plant}

The present invention relates to a plant cultivation system.

Systems for cultivating plants include cultivation using a non-coated paper, cultivation using a plastic film or glass-covered plant, and closed-type plant cultivation plants using artificial light and air conditioning devices.

Among them, the closed plant plant can maintain the environment optimized for plant growth by introducing the artificial light source, the cold and heating for constant temperature and humidity, and thus it is possible to harvest a large number of plants per unit area, It has the advantage of being able to keep it.

On the other hand, as technologies for expressing foreign dominant genes such as viruses and bacteria in objective plant species have been developed, plant transformation techniques have been widely used in various fields.

A transgenic plant is a plant in which a foreign gene is expressed in the inherent gene. If the transgenic plant is induced to cross with the same species or other species of the non-transformed plant, This can be a threat to the ecosystem.

Therefore, in order to produce transgenic plants safely and efficiently, it is very important to isolate and produce plants, to tighten the closure of the plant cultivation space, and to utilize the closed cultivation space efficiently.

KR 10-1402487 B1 (2014.05.26)

It is an object of the present invention to efficiently seal a cultivation space and prevent a plant or a plant in a cultivation space from crossing with the outside.

It is also intended to make the cultivation space an environment optimized for cultivation of plants or plants, and to improve space utilization of the enclosed cultivation space.

The present invention relates to a plant cultivation system.

A plant cultivation system according to the present invention comprises: a first cultivation room having a cultivation space for accommodating a plant cultivation zone and a first outer wall for enclosing the cultivation space; and a second cultivation room for accommodating the first cultivation room, And a second outer chamber provided on the outer surface of the first outer wall to seal the buffer space. And at least one air conditioning unit provided in the first and second cultivation rooms for controlling the air, wherein the air conditioning unit is provided in the buffer space of the second cultivation room, A first air conditioning unit for controlling the air so that the pressure of the space is in the range of -15 Pa to -2.5 Pa or less, And a second air conditioning unit for controlling the air so that the cultivation space is positive.

Preferably, the first air conditioning unit and the second air conditioning unit may include a filter device for filtering the air discharged to the outside from the cultivation space and the buffer space.

More preferably, the plant growing platform comprises: a plurality of cultivating bodys for receiving plants and stacked in a growing direction of the plants to form a plant growing space; a nutrient solution feeding device connected to the cultivation bar body to supply the nutrient solution; A light source supply device for supplying a light source to a plant accommodated in the rearing platform body so as to face the rearing rod body, and a photographing device for photographing a plant accommodated in the rearing rod body so as to face the rearing rod body; And moving means provided on the rearing platform body for moving the rearing platform body to adjust the height of the plant growth space.

More preferably, the moving means may include a driving cylinder in which a body is fixed to the rearing platform body, and a piston rod is connected to a rearing platform body existing on an upper portion of the rearing rod body on which the body is provided.

More preferably, the moving means includes: a fixed bracket provided on the lifting body; a driving motor provided on the fixed bracket; a rotating drum connected to the rotating shaft of the driving motor to rotate; And a wire member wound around the rotary drum and connected to a rearing platform body provided at a lower portion of the rearing platform body provided with the fixing bracket.

Preferably, the plant cultivation system according to the present invention further comprises a photosynthesis promoting unit provided in the cultivation space of the first cultivation room to supply carbon dioxide.

delete

delete

delete

According to the present invention, it is possible to effectively seal the cultivation space and to prevent the plant or the plant in the cultivation space from crossing with the outside.

Also, productivity of plant or plant can be improved without environmental disturbance, and quality can be improved.

1 is a conceptual diagram of a plant cultivation system according to a preferred embodiment of the present invention.
2 schematically shows a cultivation space according to a preferred embodiment of the present invention.
3 schematically shows a cultivation space according to another embodiment of the present invention.
4 schematically shows a cultivation space according to another embodiment of the present invention.
5 is a right side view of Fig.

In order to facilitate an understanding of the description of the embodiments of the present invention, elements denoted by the same reference numerals in the accompanying drawings are the same element, and among the constituent elements that perform the same function in each embodiment, Respectively.

Further, in order to clarify the gist of the present invention, a description of elements and techniques well known in the prior art will be omitted, and the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood, however, that the spirit and scope of the present invention are not limited to the embodiments shown, but may be suggested by those skilled in the art in other forms, additions, or alternatives, .

The plant cultivation system may include an apparatus, a facility, and the like necessary for cultivating a plant, and may include a space where such apparatus, equipment, and the like are provided. It is also possible to collectively refer to such a device, a facility, or a space provided with such a device, facility, and the like. In addition, 'transgenic plants', 'transgenic plants', 'plants', and 'plants' may all be used to refer to plants, and the plants may be transgenic plants.

First, FIG. 1 shows a plant cultivation system according to a preferred embodiment of the present invention.

The plant cultivation system 100 according to the present invention includes a first cultivation room 110 having a cultivation space 111 for accommodating a plant cultivation bed 210 and a second cultivation room 110 for accommodating the first cultivation room, A second cultivation room 120 having a cushioning space 121 provided outside the room and at least one air conditioning unit 130 provided in the first and second cultivation rooms 110 and 120 for controlling the air, .

The first cultivation room 110 may include a first outer wall 112 for sealing the cultivation space and the second cultivation room 120 may be spaced apart from the exterior of the first outer wall by a predetermined distance, And a second outer wall 122 that forms a buffer space 121 and seals the buffer space 121.

The first outer wall 112 and the second outer wall 122 may be made of a material including urethane, plastic, steel plate, and the like. Through the first and second outer walls 112 and 122, It is possible to effectively prevent the seeds of the transgenic plants in the cultivation space 111 from flowing out to the outside of the first and second outer walls 112 and 122 by doubly sealing the cultivation space 111, have.

Meanwhile, the air conditioning unit 130 may include an air conditioning device. The air conditioning device may include an air conditioning device, and may include temperature, humidity, cleanliness of the air in the cultivation space 111 and the buffer space 121 The air flow, and the like, and the pressure of the cultivation space 111 and the buffer space 121 can be adjusted.

At this time, the air conditioning unit can control the air so that the pressure of the buffer space of the second cultivation room becomes negative. The negative pressure means a pressure lower than the atmospheric pressure.

According to this, the pressure of the buffer space 121 existing between the outer surface of the first cultivation room 110 accommodating the plant growth platform 210 and the inner surface of the second cultivation room becomes negative pressure, The buffering space 121 surrounds the outside of the first outer wall 112 of the first cultivation room 110 having the cultivation space 111.

Since the pressure in the buffer space 121 is a negative pressure lower than the atmospheric pressure and the pressure outside the second outer wall 122 is at atmospheric pressure, air existing outside the second outer wall 122 moves toward the buffer space 121 do.

As a result, the air inside the second outer wall 122 is prevented from flowing out of the second outer wall 122, and the air in the second cultivating space 110, which is present in the cultivation space 111, Even if the seed of the plant flows out into the buffering space 121, it can be prevented from flowing out to the outside of the buffering space 121, that is, outside the second outer wall 122, thereby preventing ecosystem disturbance.

The first air conditioning unit 132 may be provided in the buffer space 121. The first air conditioning unit 132 may be disposed in the buffer space 121 in a range of -15 Pa to -2.5 Pa The air can be controlled in such a manner that At this time, the pressure of the buffer space 121 can be appropriately maintained within the above-mentioned pressure range according to the kind of the transgenic plant, the growth environment, and the like.

At this time, a separate pressure measuring device (not shown) capable of measuring the pressure may be provided in the buffer space 121. However, it should be understood that the present invention is not limited thereto and can be suitably selected and applied by those skilled in the art.

The air conditioning unit 130 may further include a second air conditioning unit 131 installed in the first cultivation room to control the air so that the cultivation space has a positive pressure.

In this case, the positive pressure means that the pressure in the closed space is formed higher than the outside, and therefore the pressure of the cultivation space 111 formed by the first outer wall 112 and sealed is higher than the pressure of the buffer space 121 it means.

When the pressure in the buffer space 121 is negative and the pressure in the cultivation space 111 is positive, the fluid existing outside the second outer wall 122 at the atmospheric pressure state is sucked into the buffer space 121, The fluid present in the cultivation space 111 formed by the flow path 112 is discharged into the buffer space 121.

This makes it possible to collect the seeds of the transgenic plants flowing out of the cultivation space 111 into the buffer space 121 and to prevent the seeds from escaping from the buffer space 121 to the outside, It is possible to inhibit generation of mutants by being crossed with other seeds present inside the cultivation space 111 or outside the second outer wall 122. [

At this time, a separate dust collecting device (not shown), an exhaust device (not shown), a suction device (not shown), and the like may be provided in the buffering space 121 and periodically clean the air in the buffering space 121 You may.

However, the present invention is not necessarily limited to the present invention, but may be appropriately selected and applied by those skilled in the art.

The second air conditioning unit 131 can control the air so that the pressure of the cultivation space 111 is in a range of + 2.5 Pa to + 15 Pa. The first and second air conditioning units 132 and 131, A filter device 133 for filtering the air discharged from the buffer space 121 to the outside of the second outer wall 122 and filtering the air discharged to the outside of the first outer wall 112 in the cultivation space 111, May be provided. At this time, the kind of the filter and the like are not necessarily limited to the present invention, but may also be appropriately selected and applied by those skilled in the art.

In addition, a storage room 150 and a foot room 160 may be further provided in the buffer space 121 so that transgenic plants can reproduce. At this time, the storage room 150 and the foot room 160 can be connected to each other by a conveyor belt (not shown), so that the operation of harvesting the plants is facilitated and the efficiency of the operation is improved. In addition, there is an effect that the germination, seedling, cultivation, harvest storage, etc. of transgenic plants can be realized in one system.

In the present invention, the transgenic plants can be cultivated in a plurality of plant growth units 210 in a cultivation space 111 according to a circulating hydroponic system. The circulatory hydroponic system means that plants sown with the artificial medium are mixed with raw water A system for growing in a culture medium made of a water-soluble nutrient means a system in which a culture solution is maintained at a predetermined height at a plant growing platform 210 for a certain period of time, and then a series of processes are carried out.

Therefore, the plant growing bed 210 may include a nutrient solution supplying device 212, and each of the plant growing beds 210 may be connected to a supply pipe 212a. The supply piping 212a is connected to the sterilizing device 212c so that the culture liquid flowing in the supply piping 212a can be sterilized and sterilized while passing through the sterilizing device 212c and the sodium hypochlorite diluent Or disinfected by a disinfectant such as water can be treated to be circulated again or treated with wastewater.

At this time, the UV device 212b may be further provided on at least one of the connection portion of the supply pipe 212a and the plant growth support 210, the supply pipe 212a, and the plant growth support 210. [ The UV apparatus can be provided with a waterproof ultraviolet lamp, and has an effect of assisting sterilizing action of a culture liquid (hereinafter referred to as "nutrient solution").

In addition, the first outer wall 112 and the second outer wall 122 may be provided with a first entrance 113 and a second entrance 123 which allow an operator to enter and exit. The first and second access openings 113 and 123 may be closed at all times and the first and second access openings 113 and 123 may be formed in the transgenic plant or the cultivation space 111 or the buffer space 121 (Not shown) may be provided in order to prevent the substances present in the second outer wall 122 from being ultimately discharged out of the second outer wall 122.

FIG. 2 is a view showing a plant growing bed (210 of FIG. 1) existing in a cultivation space 111 formed by a first outer wall 112 according to a preferred embodiment of the present invention.

The plant growing platform (210 in Fig. 1) includes a plurality of cultivation padding bodies 211 accommodating the plants 1 and stacked in the plant growth direction to form a plant growing space 211a, A light source supply device 213 for supplying a light source to a plant accommodated in the rearing platform body so as to face the rearing rod body, And a photographing device 214 for photographing the plant 1 accommodated in the cultivating bodyside body.

At this time, the light source supply device 213 may provide artificial light such as sunlight, fluorescent light, light emitting diode element, and plasma lamp in order to provide a light source necessary for plant growth.

According to the photographing device 214 provided on the upper portion of the cultivating table body 211, it is possible not only to monitor the growth state of the plant 1, but also to easily adjust the brightness and the lightness.

In addition, a plurality of the cultivation pans 211 can be stacked in the direction of growth of the plants, that is, in the direction opposite to gravity, and a support shaft 211b is provided between the cultivation pans 211, ).

At this time, the plurality of cultivating bodys body 211 can be divided into a seedling cultivation and a cultivation depending on each growth stage of a plant. Therefore, it is possible to adjust the length of the support shaft 211b according to the growth condition of the plant, thereby securing the height of the appropriate plant growth space 211a according to the growth stage of the plant.

In addition, the photosynthesis promoting unit 140 is provided at one side of the cultivation table body 211 to supply a proper amount of carbon dioxide, thereby promoting the growth of plants in the cultivation space 111. At this time, the photosynthesis promotion unit 140 may be connected to the control means (not shown) so as to be controlled to supply a proper amount of carbon dioxide.

3, the height of the plant growth space (211a in FIG. 2) can be more easily secured. In the present invention, the height of the plant growing space (211a in FIG. 2) And a moving means 215 for adjusting the height of the growth space.

The moving means 215 is configured such that the body 216a is fixed to the rearing base body 211 and the piston rod 216b is mounted on the rearing rod body 211 existing above the rearing rod body 211 on which the body 216a is provided, (Not shown).

The drive cylinder 216 may be provided to be operated by hydraulic or pneumatic pressure depending on the size of the cultivation space 111 or the cultivation cradle body 211. The piston rod 216b may be extended or retracted It is possible to move the cultivation bar body 211 while contracting.

In addition, the driving cylinder 216 may be connected to a control unit (not shown) and may be provided to control the supply of hydraulic or pneumatic pressure, the supply amount, and the like. Therefore, the operator can control the growth space 211a by controlling the hydraulic pressure or the pneumatic pressure to move the cultivation table body 211 in accordance with the height of the plant 1.

4 and 5, the moving unit 215 includes a fixed bracket 311 fixed to the rearsing body 211, a driving motor 312 provided on the fixed bracket 311, A rotating drum 313 connected to a rotating shaft 312a of the driving motor 312 by a speed reducer and a wire member 314 wound around the rotating drum 313.

The wire member 314 may be connected to a lifting body 211 located below the lifting body 211 to which the fixing bracket 311 is fixed and one side of the rotating drum 313 is connected to the rotation axis And the other side may be connected to the fixing bracket 311 by a bearing B. [

Therefore, as the rotary shaft 312a of the driving motor 312 rotates, the wire member 314 can be wound or unwound by the rotary drum 313 to raise or lower the lifting body 211, It is possible to control the growth space 211a of the plant by moving the cultivation bar body 211 also.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be apparent to those of ordinary skill in the art.

1: Plant 100: plant cultivation system
110: first cultivation room 111: cultivation space
112: first outer wall 113: first entrance
120: second cultivation room 121: buffer space
122: second outer wall 123: second entrance
130: air conditioning unit 131: second air conditioning unit
132: first air conditioning unit 133: filter device
140: photosynthetic promotion unit 150: storage room
160: Val Silil 210: Plant Growing Zone
211: cultivation bed body 212: nutrient supply device
213: light source supply device 214: photographing device
215: moving means 216: driving cylinder

Claims (9)

A first cultivation room having a cultivation space for accommodating a plant growth zone and a first outer wall for enclosing the cultivation space;
And a second outer wall which houses the first cultivation room and has a buffer space provided outside the first cultivation room and which is provided outside the first outer wall to seal the buffer space, room; And
And at least one air conditioning unit provided in the first and second cultivation rooms for controlling air,
The air conditioning unit includes:
Wherein the second cultivation room is provided with a buffer space of the second cultivation room for controlling the air so that the pressure of the buffer space of the second cultivation room becomes negative pressure and the pressure of the buffer space is in the range of -15 Pa to -2.5 Pa And a second air conditioning unit provided in the cultivation space of the first cultivation room for controlling air so that the cultivation space is positive.
delete delete delete The method according to claim 1,
Wherein the first air conditioning unit and the second air conditioning unit comprise:
And a filter device for filtering air discharged to the outside from the cultivation space and the buffer space.
6. The method of claim 5,
The plant cultivating zone comprises:
A plurality of rearing bases for receiving plants and stacked in the direction of plant growth to form a plant growth space;
A nutrient supply device connected to the cultivation bed body to supply the nutrient solution;
A light source supply device for supplying a light source to a plant accommodated in the rearing platform body so as to face the rearing rod body;
A photographing device for photographing a plant accommodated in the cultivation bed body so as to face the cultivation platform body; And
A moving means provided on the cultivation platform body for moving the cultivation platform body to adjust the height of the plant growth space;
Wherein the plant cultivation system is a plant cultivation system.
The method according to claim 6,
Wherein,
And a driving cylinder in which a body is fixed to the cultivation table body and a piston rod is connected to a cultivation table body present on an upper portion of the cultivation table body on which the body is provided.
The method according to claim 6,
Wherein,
A fixing bracket provided on the rearing platform body;
A driving motor provided in the fixing bracket;
A rotating drum connected to the rotating shaft of the driving motor and rotated; And
A wire member wound on the rotary drum and connected to a rearing platform body provided at a lower portion of the rearing platform body provided with the fixing bracket;
And a plant growth system.
The method according to claim 1,
A photosynthesis promotion unit provided in the cultivation space of the first cultivation room to supply carbon dioxide;
Further comprising a plant growth system.

Images